DE937321C - Pipeline - Google Patents

Description

Pipeline The invention relates to a pipeline for guiding such media is intended that tend to settle, such. B. liquids with suspended solids and air or other gases as carriers more solid, more or less powdery substances that exert chemical influences. A special Examples are hydraulically binding substances such as cement slurry, cementing mixtures of silica or silica-rich substances and lime or lime-rich substances.

Such lines often get a crust created by settling on the inside, which gradually grows and eventually clog the pipeline can if the crust is not removed from time to time. That was done by rinsing the pipeline, a measure that is not always sufficient and often unsuitable is. So a crust residue can remain in places despite the sink ice, and on These places gradually develop further deposits, so that one too The pipeline becomes completely clogged over time, despite regular flushing can.

In addition, the flushing process interrupts operation the pipeline brings with it, which is undesirable. It also occurs when flushing too there is a loss of the medium to be conveyed, and there can be no interference either desired substances.

Attempts have been made to avoid these disadvantages by using particularly large pipelines. In this way it was achieved that clogging was delayed for a longer period of time, but the reduction in the flow velocity caused by the large dimensions of the pipeline also had the effect of increasing the tendency to form deposits. In addition, a large pipeline becomes expensive and bulky and requires very large amounts of liquid for flushing.

The invention relates to a pipeline which consists of an outer casing and a lining, with which the existing crusts and deposits broken loose or even their formation continuously can be prevented. The advantages achieved in this way are considerable. A business interruption and a loss of material is: avoided. Another advantage is to see That, for example, the Leiturig against corrosion by masses that tend to be corrosive to work can be better protected.

The one made of an outer covering made of stiff or relatively stiff Material and with a lining made of soft or malleable material, e.g. B. rubber, provided pipeline is »characterized in that the lining consists of a thin, deformable and preferably elastic material, such as rubber or plastic, with a There is reinforcement in the longitudinal direction, so that the reinforcement .in The longitudinal direction of the lining prevents it from being deformed in the radial direction Direction, and that the lining is loosely arranged within the outer envelope and in a manner known per se for generating an intermittent or periodic variable pressure on the inner or outer side of the lining for the purpose of a Deformation is established.

It is known to have a movable pipe wall in a teat cup subject to intermittent or periodically changing pressure. The movable one However, the pipe wall is not made as a lining in a pipe or a casing stiff material used.

In contrast, according to the invention, the inner lining is used for transport -the medium and the outer envelope as a support for the inner lining. if the Sheath consists of a tube, the space between the tube and the lining in a manner known per se for .the supply of a pressure medium or a pulsating one Medium are provided, for example for a liquid or a gas, with which the chuck can be deformed, so that any deposits that may have formed are broken away and can preferably be removed by the promoting medium itself, if necessary also by a special medium supplied for rinsing.

In its simplest form there is the pipeline according to the invention from a delivery pipe with a tube made of rubber or the like. The hose is attached to both ends of the pipe and has a nozzle for the introduction of the print medium provided.

The invention is described in more detail in connection with the drawing. It represents embodiments of the invention, for example.

Fig. I shows a pipe with a retracted hose and pipe socket for To: connection to a print medium; Fig. 2 shows an embodiment in which the outer Sheath consists of an armored hose; Fig. 3 shows a pipe connection; Fig. Q. shows another embodiment of such a connection; Fig.5 shows a Execution of the inner tube.

According to FIG. I, the tube is io at one end with a flange i i provided, while @dhs the other end has a flange 12 in the usual way. This is designed so that it connects to the end of a pipe with his Include beading: can. A hose 13 is arranged in the pipe and: after outside over @dhe pipe ends i i and 12 put. In this way arises between the inside of the pipe and the lining formed from the hose a gap, through a pipe socket 14, for example with a pressure line or a pulsating medium.

The outer covering is not subject to wear and tear by the one to be conveyed Mass, so it only needs to have a strength that is partly to accommodate the Pressure in the shell space and for the necessary support of the inner shell is sufficient and, if the line is completely or partially self-supporting, to accommodate the Weight of the mass to be conveyed. It is not necessary that the outer covering consists of a pipe in the true sense of the word, it can also consist of a hose with such strength properties exist that the conditions given above fulfill. The embodiment of Figure 2 illustrates how the hose 13 in an outer sheath is drawn, which also consists of a hose, which is armored so that it can absorb the internal overpressure. For example it is assumed that the reinforcement z. B. from a layer 15 of fabric, canvas or the like. In each end of the envelope there is a sleeve 16 for attachment of the hose 13 inserted. The sleeve is made of hard material, for example Metal, and is on the outer jacket surface with a sawtooth-shaped, for example Enhance expansion. By means of a metal ring or a band 17, the sleeve 16 clamped at the end of the envelope. The other end of the wrapper can with a similarly trained. Be provided sleeve; but it can also be done with a Sleeve with a recess, corresponding to the right part of the tube according to FIG. be provided.

When longer pipelines are composed of individual pipe lengths are to be, either each piece of pipe can be connected to the Druckleiturig or, a series connection can be provided. In the latter case will Pipe sockets required on each element - at each end.

In Fig. 3 it is indicated how a coupling between such elements can be effected. The figure shows again hose 13 at the end of each tube is slipped over the edge of the pipe. A ring 18 is attached next to the pipe ends. By means of a number of tension clamps z9, of cooperating with the rings r 8 one of which is shown in the picture, the ends of the pipe sections will be tight against each other held down. Each pipe element is provided with a connecting piece 14. The pipe socket of ends butting against each other are interconnected by a special line 2i connected, preferably with a quick coupling 2o. The tubes can be in any can be joined together in any way, but it is particularly advantageous to do so to use the upturned rubber lining at the ends for sealing purposes.

In Figure 4, another embodiment of a coupling is shown, wherein the two mutually facing pipe ends have the same design. The tube walls of the two support tubes are denoted by 22 and 23. There are holes 24 and 25 in these pipes. The pipe ends are flanged and form annular beads 26 and 27. The annular beads 26 and 27 are advantageously welded at the joints 28, 29. This creates within each bead: a closed annular space that can be used for the connection with the shell spaces through holes 24 and 25. Further bores 30, 31 are provided for connecting the annular spaces to one another.

Around: the two annular beads 26, 27, the hoses 32 and 33 are placed. They can preferably be on the outside of the tubes by means of a clamping ring or a bandage 34, 35 be tightened. Finally, one is more concave on the sides Ring 36, preferably made of rubber, arranged between the two ends.

The ring 3,6 has a reduced diameter in the middle. In the groove 3: 6 that is formed, metal rings 37, 38 with a wedge-shaped cross section are arranged. These rings are held together at the pipe ends by means of a number of clips, not shown in the drawing. This achieves a perfect seal at the connection point. The ring 36 is provided with channels or holes 39 which rin with the holes 30 and 31. Connected. The rubber jacket is also perforated in these places so that an unimpeded flow between the two annular spaces through the hole 30 in the rubber jacket 32, the channel 39 and the hole 31 or the corresponding holes and channels in other places around the perimeter of the pipeline can take place. Because the 3: 6 ring is made of rubber, the tubes are particularly flexible. The possibility of flow through the ring 36 can also take place through a connection between the shell spaces according to FIG. 3, namely through a special hose which connects the pipe sockets at the pipe ends.

The hose serving as feed should preferably be dimensioned in this way. be: that he is in the natural, tension-free state of the inner wall of the pipe 22, 23, follows. If then a pressure medium in the shell space between the pipe 22, 23 and the hose 32, 3-3 is pressed in, the hose is correspondingly without resistance the volume ratio between the medium in the shell and the medium in the pipeline deformed. For example, the hose can: take a shape starting with 32 ', 33' is indicated in FIG. Deposits that may have formed in the hose, are broken loose immediately and follow the conveying flow. Particularly It is noteworthy that the hose itself has no mechanical influence the insignificant deformation influence is exposed, since: he only without its own rigidity, the pressure and volume balance between the on each side the visual tube needs to follow the existing media. One danger of destruction of the hose is therefore not available. Because the lining has no actual pressure it can be made of a soft and pliable material such as rubber be or made of plastic, such as plastic,: which are well suited to the mechanical To withstand wear and tear if there are any sharp particles in the conveyed material.

If the delivery line is designed as a pressure line, a Deformation of the jacket is also a pressure medium, for example a liquid or a gas which is pressed into the shell space can be provided. is on the other hand, the delivery line is designed as a suction line, then. may require it be, in normal operation, Aden the shell space with a corresponding vacuum connect so that a negative pressure arises in the shell space. This is particularly important when in the suction line or in the pressure line the mass is at high speed is conveyed or if the mass to be conveyed has strong friction on the inside of the coat shows. In such cases it is possible that the jacket stands out from the crowd is dragged along so that it folds in the conveying direction at the end and at the opposite end End is pulled out or even tears there.

In this case, a vacuum can be provided in the shell space, and if, in addition, the inner surface of the tube is uneven or otherwise is designed to increase the friction, the jacket is protected against damage. It is also possible to protect the hose against such deformation by that a longitudinal reinforcement, z. B. cast wires, springs or the like. Provided will.

A hose constructed in this way is shown in FIG. In the wall of the jacket 13 , wires 4o made of a material resistant to tension, for example made of metal, cotton or fibers of another type, are provided. Such a reinforcement prevents the hose from stretching: in the longitudinal direction, however, it allows the jacket to be bent around the pipe ends, since there is no transverse reinforcement.

The jacket room was sooty from time to time to be put under pressure to cause a deformation. the more often this happens, the more free of deposits is held over a pipeline. If you wait so long to deform until the pipe is clogged, difficulties can arise: that of the walls to remove broken material, and it can even happen: that there is .a forms such a solid mass that the pressure is not sufficient to deform the Coat would be required. It is therefore advantageous to do one repeatedly and for a short time Pressure impulse into the shell space, and in certain cases it even is advantageous, the jacket space a continuously variable pressure in the form of a Suspend pulsation wave.

Very simple means can be used for such pressure pulses. Thus: an opening can be arranged in the shell space with a pressure bell is connected, which z. B: contains a sight glass through which the liquid level in: the pressure bell can be read. If the mass to be conveyed - by a usual pulsator is given a variable pressure, the pressure in the pressure bell to be adapted so that it: follows the pressure changes. This results in a pulsating movement of the hose, so that deposits prevents verden. In this case, the pressure bell replaces a special one D, source of fluid. If the pressure bell also has a sufficiently large capacity, With the help of this jacket, if desired, the mass to be conveyed can be completely removed of the pipeline by: a placed on the inlet side of the pipeline Valve blocks the supply. Due to the pressure present in the pressure bell then: the jacket together: e @ ngepreß: t, so that the pipe is completely: emptied. In this This prevents settling in cases where the material transport is interrupted is .., The pressure bell with a sight glass can also be used for display when a chuck is damaged. A mixing of the medium in: the bell with the mass will then be the result, which can easily be observed. One Another way of indicating whether a coat is damaged is based on the fact that the electrical resistance of the medium between jacket and lining is changed, if mixing with mass takes place.

If a larger number of shell spaces are connected in series, Filters can be inserted between each unit: to prevent that too medium contaminated by mass reaches the other shell spaces. If a Lining tears, the pipe section in question can be switched off in a simple manner and the hose must be replaced. According to a further embodiment of the invention the outer sheath into which the hose is drawn can be made from one to one Helical .wound wire made of resilient material, e.g. B @. Steel wire. A pipeline designed in this way is also after all. Directions flexible. on The reason for the resilient outer covering is: in this embodiment it is not necessary, a pressure bell or d @ gl. to be arranged, but is sufficient to clean the pipelines it, to put the whole line under such high pressure: that the inner jacket the outer sheath presses outwards so that they .large; Diameter received, where all deposits are broken off and washed away.

It was assumed in the examples that the inner lining in Rest position, without the influence of pressure, relatively close to the inner surface of the outer Wrapping is applied. It is also within the scope of the invention if the feed has a Has diameter at: three it in. Rest position; @d. ih. in de-energized state in Distance from the envelope. If such a line works with overpressure, the lining is pressed outwards and lies on the inside, around itself, if the overpressure subsides or stops contracting to the normal, smaller diameter. The lining is preferably made of a softer material, so that when contracting, it can develop sufficient force to prevent it to loosen existing deposits on the inside of the lining. At . this version the outer covering can be of any nature and either from one Pipe or consist of a more or less tightly wound spiral, which only serves to carry the feed and the material to be conveyed.

Claims (15)

PATENT CLAIMS: i. Pipeline consisting of: an outer casing and a lining, characterized in that the lining (i3) consists of a thin, defo: smearable and preferably elastic, material, such as rubber or plastic, with a reinforcement in the longitudinal direction (4o), so that the reinforcement the expansion prevents the chuck in the longitudinal direction, but not its deformation in the radial direction Direction, and that the lining loosely within the outer. Wrapping (io) arranged is and in a manner known per se to generate an intermittent or periodic variable pressures on the inner and / or outer side of the lining for the purpose a deformation is set up. 2. Pipeline according to claim i, characterized in that that the inner surface of the outer envelope (io) with one the friction with: three Lining (i3) enlarging surface is formed. 3. Pipeline according to claim i, characterized in that the lining (i3) .um the Ends (11, 12) the envelope (io) is turned inside out. 4. Pipeline according to claim i, characterized in that that the chuck (13) is relatively close to the inner surface in the no-tension rest position the envelope is applied. 5. Pipeline according to claim i, characterized in that the chuck (13) in a tension-free rest position with the formation of an annular space at a distance of the envelope is arranged so that the lining is in the event of pressure changes between an outer layer along the inside of the envelope and the rest position can move at a distance from it. 6. Pipeline according to one of claims i to 5, characterized in that the outer casing (io) is made of dense material is so that a limited jacket space is formed between the casing and the lining will. 7. Pipeline according to claim 6, characterized in that the shell space in a known manner to a pressure line, a vacuum or a pulsation device connected. B. Pipeline according to claim 7, characterized in that the Shell spaces in two or more pipe parts with each other and: with a common Source of pressure, vacuum or pulsations. G. Pipeline according to claim 6, characterized in that a pressure bell is connected to the jacket space is. ok Pipeline according to one of Claims 6 to 9, characterized in that the ends of the casing (io) are flanged to form annular channels (26, 27) which are connected to the jacket space. ii. Pipeline according to claim io, characterized characterized in that holes (24, 25) are arranged in the tube wall of the outer casing are for the purpose of connecting the annular channels (26, 27) with the shell spaces and that other holes (30, 31) to interconnect the annular channels are arranged in two ends next to one another. 12. Pipeline according to claim i i, characterized in that a ring (36) between two adjacent Ends of the outer casing (22, 23) is arranged, which is concave on both end faces formed eats, and that the two ends of the outer. Wrapping under pressure are clamped together with the ring (36). 13. Pipeline according to claim 12, characterized characterized in that the ring (36) is made. elastic material, for example rubber, consists. 14. Pipeline according to claim 12, characterized in that the ring (36) is provided with channels (39), which with holes (30, 31) the annular Channels of two adjacent elements. associate. 15. Pipeline to one of claims i to 5, characterized in that the outer casing (io) from a helically wound wire made of elastic material, for example Steel wire. Referenced publications: German patent specification No. 825 g14.